Answer:
The ratio of the high-wire unicyclists to ball-balancing seals is;
Explanation:
Given that;
He has featured 32 high-wire unicyclists and 24 ball-balancing seals.
The ratio of the high-wire unicyclists to ball-balancing seals can be written as;
Reducing toits lowest form, we have;
divide both sides by 8;
Therefore, the ratio of the high-wire unicyclists to ball-balancing seals is;
<span>5(x-3)-2(2x+1)
5x - 15 - 4x - 2
(5x - 4x) - 15 - 2
x - 15 - 2
x - 17
The answer is: x - 17.</span>
11, rosabell had 11 posters for the parade
Answer:
y=-\frac{5}{3} x+\frac{10}{3} or what is the same:
Step-by-step explanation:
First we find the slope of the line that goes through the points (-4,10) and (-1,5) using the slope formula:
Now we use this slope in the general form of the slope- y_intercept of a line:
We can determine the parameter "b" by requesting the condition that the line has to go through the given points, and we can use one of them to solve for "b" (for example requesting that the point (-1,5) is on the line:
Therefore, the equation of the line in slope y_intercept form is:
Notice that this equation can also be written in an equivalent form by multiplying both sides of the equal sign by "3", which allows us to write it without denominators: